Based on the energy-saving and carbon-reducing campus program in National Chung Hsing University, the intelligent green energy farm ranch system has been implemented for a business model of integration and innovation, the technical achievements and management model have been successfully transferred and taken root in industrial, in order to achieve energy conservation, carbon reduction, electricity cost savings, and technology Multiple goals and values, such as innovation, patent output, academic treatises, talent cultivation, driving industrial development of energy technology services (ESCOs), and increasing green employment opportunities.
Additionally, the dissolved oxygen and heavy metal sensors have been completely developed as a green energy facility.
It has been completed that long-distance wireless communication module (LoRa Node-RYLR896) test and data transmission through the gateway receiving module. The development results of solar dye-sensitized battery material are published in top journals, and there have been advances results in hydrogen production and water purification treatment for agricultural and animal husbandry wastewater and eutectic magnesium alloys.
(1)Technology for transforming magnesium alloy waste into hydrogen-producing materials; and rationalizing the technology. One of the key points of this plan is to further use the above-mentioned waste hydrogen-producing materials for agricultural and animal husbandry wastewater (waste effluent for cleaning cattle excreta), to explore the qualitative observation of its hydrogen production, and to explore the main anions in the wastewater after the hydrogen production process is completed. Variety. It is hoped that this plan will turn the turbid agricultural and pastoral wastewater into clarified effluent water, while producing hydrogen energy.
(2)At present, there is still considerable room for development of research on hydrogen production from non-precious metal catalysts in water electrolysis. The cheaper catalysts can be used to reduce the cost significantly. This project will develop non-precious metal preparation technology, and study its parameters, morphology, catalytic capabilities, and its performance in hydrogen production from water electrolysis to overcome the problems encountered. The goal is to expect this novel catalyst material to have a price advantage, good reactivity, and high stability. The research results can not only be published in important international academic journals, but also have patents that can be transferred to the industry to enhance Taiwan's competitiveness in the field of electrolytic hydrogen production.
(3)Through the analysis and combined use of the microbial community, various functional microorganisms and related enzymes, the map can be used for lignocellulose to construct a high-efficiency and stable-controllable biomass green energy production process and convert it into agricultural materials for reuse Procedures to achieve the purpose of circular agriculture, the two major procedures include the innovative cellulose saccharification process and the creation of efficient and high value-added refining procedures. Utilizing innovative physical generator system to achieve multi-function Nano components that based on cloth, live, light, environmentally adaptable, can be widely implemented, can be collected in a large range, and multiple environmental energy sources (natural wind, raindrops and human sports energy), and use cloth to simultaneously collect tiny and disordered natural energy and human motion energy, and on top of that, nano-generation cloth can also be used as an active, self-driven flexible human-machine interface; this achievement opens up the energy thinking of new technologies such as IoT energy, remote energy, discrete energy, and wearable energy, and at the same time opens new door of smart clothing.
(4)The plan uses Xixinba Farm Ranch (animal production test field) as an application example of the smart energy operation model, simultaneously discusses the economic benefits of its operating model in the life cycle of green energy-related facilities and the related benefits of establishing an innovative business model. The role positioning and profit incentive mechanism of related parties, including solar power generator operators, smart energy management platform operators, electrical engineering operators, the school ’s Xixinba Farm Ranch (animal production test farm) operator, Xixinba Farm Ranch ( Animal production test site) Electricity users in neighboring factories, etc.
Additionally, the dissolved oxygen and heavy metal sensors have been completely developed as a green energy facility.
It has been completed that long-distance wireless communication module (LoRa Node-RYLR896) test and data transmission through the gateway receiving module. The development results of solar dye-sensitized battery material are published in top journals, and there have been advances results in hydrogen production and water purification treatment for agricultural and animal husbandry wastewater and eutectic magnesium alloys.
(1)Technology for transforming magnesium alloy waste into hydrogen-producing materials; and rationalizing the technology. One of the key points of this plan is to further use the above-mentioned waste hydrogen-producing materials for agricultural and animal husbandry wastewater (waste effluent for cleaning cattle excreta), to explore the qualitative observation of its hydrogen production, and to explore the main anions in the wastewater after the hydrogen production process is completed. Variety. It is hoped that this plan will turn the turbid agricultural and pastoral wastewater into clarified effluent water, while producing hydrogen energy.
(2)At present, there is still considerable room for development of research on hydrogen production from non-precious metal catalysts in water electrolysis. The cheaper catalysts can be used to reduce the cost significantly. This project will develop non-precious metal preparation technology, and study its parameters, morphology, catalytic capabilities, and its performance in hydrogen production from water electrolysis to overcome the problems encountered. The goal is to expect this novel catalyst material to have a price advantage, good reactivity, and high stability. The research results can not only be published in important international academic journals, but also have patents that can be transferred to the industry to enhance Taiwan's competitiveness in the field of electrolytic hydrogen production.
(3)Through the analysis and combined use of the microbial community, various functional microorganisms and related enzymes, the map can be used for lignocellulose to construct a high-efficiency and stable-controllable biomass green energy production process and convert it into agricultural materials for reuse Procedures to achieve the purpose of circular agriculture, the two major procedures include the innovative cellulose saccharification process and the creation of efficient and high value-added refining procedures. Utilizing innovative physical generator system to achieve multi-function Nano components that based on cloth, live, light, environmentally adaptable, can be widely implemented, can be collected in a large range, and multiple environmental energy sources (natural wind, raindrops and human sports energy), and use cloth to simultaneously collect tiny and disordered natural energy and human motion energy, and on top of that, nano-generation cloth can also be used as an active, self-driven flexible human-machine interface; this achievement opens up the energy thinking of new technologies such as IoT energy, remote energy, discrete energy, and wearable energy, and at the same time opens new door of smart clothing.
(4)The plan uses Xixinba Farm Ranch (animal production test field) as an application example of the smart energy operation model, simultaneously discusses the economic benefits of its operating model in the life cycle of green energy-related facilities and the related benefits of establishing an innovative business model. The role positioning and profit incentive mechanism of related parties, including solar power generator operators, smart energy management platform operators, electrical engineering operators, the school ’s Xixinba Farm Ranch (animal production test farm) operator, Xixinba Farm Ranch ( Animal production test site) Electricity users in neighboring factories, etc.
